DE4318173A1 - Spark gap device - Google Patents

Description

The invention relates to a spark gap Direction for use in an electrical filter Interconnects.

In many electrical connector applications it is we significant that surge voltages or transient voltages electronic components within the electrical one not reach the direction with which the connector is connected is. This is especially true in cases where the connector is used to connect a cable to a to connect electrical device and where there is a si Significant possibility exists that surge voltages within of the cable occur, such as in a lo Kalalen network (LAN network = local area network) can kick. As a result, a number of pre made for placing filters within the Connector itself to prevent unwanted Voltages outside the electrical device arise in entering the facility.

A common connector filtering scheme, first described in U.S. Pa tent No. 4,500,159 and also in US patent No. 4,934,960 is relatively inexpensive Miniature capacitor chips to use, which are in exception in a dielectric connector body or housing are used, one electrode of the chips one electrical signal contact contacted in the connector, and the other electrode via a metal clip is grounded, which is placed on the connector body. However, the resulting capacitive minia possess door filter has a limited voltage tolerance or Tension handling capacity.  

According to a modification of the chip capacitor filter scheme the chip capacitors between the external contact a BNC connector and the panel or plate to which the connector is attached, which causes the panel mass is decoupled from the cable mass, with the exception of AC surges or AC surges. However are the decoupling chip capacitors as well as the fil capacitors due to high voltage peaks or impacts high voltages can be damaged. Examples of this type of Connectors include the BNC connector that is in the amp nol sales brochure is shown with the title "Capacitively decoupled BNC" ("Capacitively Decoupled BNC ", edition 1/91, and also the connector described in the patent No. 4,884,982.

Other examples of chip capacitor filter or Ent Coupling arrangements are also in the US patent application Serial No. 07/704 117 and in U.S. patents Nos. 2 454 448, 3 324 335, 3 791 711, 4 293 887, 4 509 090 and 4,905,931.

A solution to the problem of low voltage ver Inertia or voltage handling capacity of chip capacitors is to use spark splitters to shunt high voltage peaks or Surge voltages to ground, whereby the conventional Fun a non-conductive gap in egg a conductive path, which is abnormally large span can handle, for example, by a Lightning strikes can be induced. However, the knockout Most of the production of conventional spark gaps in a sufficiently small size so that they the Size requirements of a typical miniature connector comply, disproportionately high, and use of spark gaps in miniature filter or BNC connectors  for the purpose of providing protection against larger chips So far, it has not been possible to implement these.

Examples of discrete spark gap devices, or Kon capacitor / spark gap combinations are in the patents No. 3 087 093, 3 271 619, 3 316 457, 3 484 842, 3,564,682, 3,668,458, 4,318,149 and 4,626,957. Neither of these facilities is suitable for use in a filter connector of the capacitor chip type or in BNC connectors.

An example of a spark gap device, which as ge is described for use in a BNC connector is in the above-mentioned Patent No. 4,884,982 shows. However, the use of this facility requires a modification of the conventional decoupled BNC-Ge housing and ground clips, and also the use of a ge separated or separate dielectric to the very ge to get exact or accurate gap dimensions, what everything presents problems in terms of cost as well of efficiency.

Summary of the invention

Accordingly, it is an object of the invention to provide one inexpensive yet effective or efficient sparks splitting device to be provided for use in an elec trical connector.

It is another object of the present invention to provide an electrical connector that is both min least a chip capacitor for coupling an electri contact with a housing mass or panel or Front panel as well as at least one spark gap direction includes to protect against voltages that are too large are for conventional filters.  

It is another object of the present invention to provide an electrical connector of the type the chip capacitors used in recesses in a dielectric connector body are used where for one electrode of each capacitor with an elec trical contact that is connected in the dielectric Body is included, and with the other electrode depending the capacitor is connected to ground via a mas seclip, which is attached to the dielectric body, wherein the filter connector has at least one spark gap device comprises, which is inserted into one of the recesses sets is.

These goals are in line with the principles he preferred embodiment of the invention sufficient by providing a spark gap device in the Shape of a conductive main body with a length that is less than a length of a recess in a di electrical plastic connector housing, the Aus between a conductor to be protected or Contact and a ground clip extends, the length the desired spark gap plus the length of the head body of the spark gap device is equal to that Length of the recess in a direction parallel to one Axis of the recess that extends from the contact to the Ground clip stretches.

The objects of the invention are further promoted by the Provide a flange at one end of the conductive Main body, the flange having an outer surface of the connector housing is engaged to the other End of the conductive main body relative to the pour position contact or conductor. Preferably the main body and the flange as an integral Unit formed, the flange as a contact serves for the ground clip.  

The objects of the invention are also achieved by see an electrical connector, which is one of these term spark gap device that includes exclusively a conductive main body and a flange, such as described above, and in particular by Vor see an electrical miniature connector, which one includes such a spark gap device, the Flange engages a ground clip, and wherein whose main body in a recess in the plastic connector housing is positioned, the connector is also provided with at least one chip capacitor, which is positioned in a second recess is similar the recess in which the spark gap device posi is tioned, one electrode of which engages with is in contact and an electrode is in engagement with the Earth clip stands.

More generally, the invention therefore sees a spark gap device for an electrical connector, the consisting exclusively of one main body and one integral flange, and which does not have its own gap includes, and further the invention provides an electrical Connector before, which is such a single-link spark splitting device includes, as it follows from the exact Description of a preferred embodiment of the Invention still becomes clear.

Brief description of the drawings

Fig. 1 is a perspective view of a miniature electrical connector and a spark gap device constructed in accordance with the principles of a preferred embodiment of the inven tion;

Fig. 2 is a sectional end view of the miniature electrical connector of Fig. 1, including a built-in chip capacitor filter and the preferred spark gap device.

As shown in FIGS. 1 and 2, a BNC connector 1 comprises a dielectric body or a housing 2 , for example made of plastic. The housing 2 comprises four recesses 3 which are connected to four larger recesses 4 on the outside of the main body and which are provided for the purpose of receiving parts of a mass clip 5 which is attached to the housing. The recesses 3 are also connected to a central opening 6 for receiving an electrical contact 7 . The contact 7 is connected during use to the outer contact of a mating coupling (not shown), which in turn is connected to a coaxial cable screen and is thus at ground potential. An internal contact (not shown) conducts the information signals in a known manner.

In the exemplary embodiment shown, a coupling member 8 is provided which is provided with a thread and extends from the housing 2 in order to secure the matching coupling on the connector or plug 1 . In addition, pins 9 and 10 are provided for the purpose of attaching the connector to a printed circuit board (not shown), the printed circuit board comprising tracks with which the (not shown) internal contact and the external contact 7 are electrically connected in a conventional manner.

The earth or ground clip 5 is in the form of an electrically conductive metal plate spring that is bent at corners 11 to fit over the dielectric body or housing 2 . The ground clip 5 comprises a tongue 21 for the manufacture of a ground path to a panel or a front plate and four elastic tines or tabs 12 which extend into the recesses 4 to contact the electrodes 13 of the chip capacitors 14 and an electrical connection to manufacture with it. The chip capacitors 14 are inserted into respective outer openings of the recesses 3 so that a first electrode 23 of each capacitor used contacts the electrical contact 7 within the opening 6 and makes an electrical connection with it, while the second electrode 24 is in the vicinity of outer opening he stretches to come into engagement with a prong 12 which extends from the clip 5 , thereby forming a capacitive coupling between the external contact and the clip. In the illustrated embodiment of the inven tion, a chip capacitor 14 is placed in at least one of the four recesses.

A spark gap device 15 is also provided in at least one of the four recesses. The spark gap device 15 comprises a conductive main body 16 , ge forms, for example, from cast metal and depicted as a cylinder with a radius that is approximately the same but smaller than the width of one of the recesses 3 to fit into the recess. The spark gap device 15 also includes means for axially positioning the main body in the recess to form a spark gap 17 between the electrical contact 7 and one end 18 of the main body 16 . The axial positioning means consist in this embodiment of a flange 19 which is cast integrally with the main body 16 and has a greater width than the width of a recess 3 to prevent the main body 16 from being inserted into the recess beyond a predetermined point becomes.

In the case of a typical industry standard "block" type BNC connector, as shown, a suitable gap size would be approximately 0.004 '' (0.1016 mm), although the gap size can be adjusted as desired by providing the main body 16 forms so that it has a suitable length in the direction of an axis extending from the inner surface engaging the housing of the flange 19 to the end 18 of the main body 16 . In order to form the spark gap, the axial length of the main body 16 from the end 18 to the flange 19 plus the length of the spark gap 17 should therefore be exactly the same as the distance from the outside opening of the recess 3 to the contact 7 .

Although a preferred and particularly advantageous option leadership example of the spark gap device of the invention and an electrical connection including the same has been described, it will nevertheless the skilled person be clear that numerous variations of the above be written connector and the spark gap device possible are.

First, it should be noted that the spark above cleavage device does not require a spark gap in the facility itself is formed, and that the fun kenspalt is instead provided by positioning the device relative to the conductor, which by the one direction should be protected. So the fun requires kenspalteinrichtung the invention at least one lei main body and axial positioning means. Except However, the person skilled in the art is free to meet these requirements in the construction of changes in the establishment of the Invention including change in the shape of the Main body and in the form of the positioning means.

Furthermore, the illustrated shape of the connector itself only be illustrative and in no way restrictive.

The spark gap device of the invention can be in one  wide variety of capacitively decoupled BNC connector , filter connectors and other electrical equipment used, including electrical Multi-connector, multi-pin connector, both filmed tert as well as not filtered, electrical connector with filters other than chip capacitors, surge voltage or voltage peak suppression miniature connectors, and immediately, but not limited to.

Finally, those skilled in the art will recognize that the sparks splitting device of the invention not only instead of Fil tern can be used, one electrode directly engaged with the connector contact, but also can be used in filter connectors of the type where the filter has a separate conductive con is in engagement with the contact is electrically connected. Therefore, the invention is intended to the above description is not to be limited.

In summary, the invention provides the following. A spark gap device includes a conductive head body and an integral conductive flange, however no gap. The gap is formed by installing the Device so that the flange is one end of the main body positioned relative to a conductor that is part of an egg electrical contact in an electrical filter connector forms or is connected to a ge wanted gap between the body and the conductor form. The spark gap device installed in this way is ins particularly suitable for use in miniature filters connectors of the type in which the filter capacitor chips are in recesses in the connector housing between an electrical contact and a ground clip are positioned, the spark gap device replaced a capacitor chip in one of the recesses.

Claims (10)

1. A spark gap device for use in an electrical connector including an electrically conductive main body, characterized by : main body positioning means on the main body for positioning an end of the main body in a recess of a dielectric electrical Fil tergehäuses, by a predetermined distance from an electrical conductor , which is contained within half of the housing, thereby forming a spark gap between the end of the body and the conductor. 2. spark gap device according to claim 1, characterized ge indicates that the positioning means from a Be flange at a second end of the main body stand, the flange has a width that is larger than a maximum width of the main body pers. 3. spark gap device according to claim 2, characterized ge indicates that the main body and the flange are integrally formed with each other. 4. spark gap device according to claim 2, characterized ge indicates that the flange is electrically conductive is to provide means for grounding chip that exist in the main body. 5. An electrical connector comprising: a di electrical housing with an opening and min at least one recess in connection between the Opening and an exterior of the housing, an elek trically conductive contact member in the opening, and  a ground link, and further characterized in that the spark gap device one of the previous claims between the contact member and the Ground link is positioned. 6. Electrical connector according to claim 5, characterized ge indicates that the housing has a variety of ge mentioned recesses, wherein at least one an electrical component in the recesses summarizes which one electrode is connected to the contact is and its second electrode with the Er is electrically connected. 7. Electrical connector according to claim 6, characterized ge indicates that the component is a capacitor chip is. 8. Electrical connector according to claim 7, characterized ge indicates that the mass link has an elastic Has metal ground clip on an outer surface surface of the dielectric body is positioned, around the second electrode and the positioning means to contact. 9. Electrical connector according to claim 8, characterized ge indicates that the ground clip at least two ela includes prongs or tabs, each with the second electrode or the positioning means in Stand by. 10. Electrical connector according to claim 1, characterized ge indicates that the positioning means direct one are the flange that is integral with the main body is formed and has a width that is larger is measured as a width of the main body in egg  ner direction perpendicular to an axis that the Flange and the end of the main body connects.